JP2969344B2 - Insulated Jug spout lid - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to a lid for use in a container.

[0002]

BACKGROUND OF THE INVENTION While it is convenient to provide a lid with a movable spout, in general these lid assemblies of the prior art provide for the introduction of air into the interior of the container through the spout.
It must be used in containers that are generally rigid and have generally non-deformable side walls. This type of structure can create a substantial suction or vacuum in the container lumen, resulting in an inward pull on the container side wall. Such prior art lids have immutable sidewalls and operate satisfactorily when used in a rigid container that can withstand the vacuum created therein without being deformed.

[0003] Conversely, when using a generally rigid yet flexible container, such lids tend to pull the walls of the flexible container inward. The suction force generated while the liquid is being poured from the spout tends to overcome the strength of the container side wall and pull the container side wall inward. As such, prior art lids have not been used in lightweight, flexible containers.

[0004]

As a result of having a rigid container structure, container assemblies using lids tend to be relatively inconvenient. Inconvenient products are generally heavy and cannot provide sufficient thermal efficiency.

[0005] One method in the prior art that has attempted to overcome the problem of venting other than through the spout has been to add air holes. However, the air holes in the lid tend to leak water through the air holes. Attempting to reduce the size of the air holes to reduce water leakage will result in the air holes being too small to provide sufficient ventilation and will at least partially collapse the container sidewall.

[0006] As an additional factor, the prior art tends to create a pulsating or "burping" stream of water through the spout. In a rigid-walled container, burping occurs when the suction temporarily overcomes the head force of the water in the container and the force flowing out of the water and the flow temporarily stops. When the water flow of the liquid flowing out of the container temporarily stops, air is sucked into the container, and the pressure in the container becomes generally equal to the surrounding atmosphere, the flow resumes as a torrent of water through the spout. Such pulsations are unpredictable and result in liquid splashing when poured from the container. Pulsating flow can also occur in containers having a somewhat flexible wall design that includes air holes in the mouth.

[0007] As an additional matter, lids with rotatable spouts typically include a design in which a ball portion is retained on the seat surface of the lid. The design of the ball and the seating surface tends to result in an unstable spout where the ball will come off the seating surface if the spout is too long. This release of the ball from the seating surface can result in an uncontrolled flow of liquid from the container.

Further, prior art ball and seat designs are prone to water leakage between the ball and the seat. The prior art ball and seat structure design requires an O-ring or other packing, even though the prior art structure uses an O-ring or other packing.
-It is prone to wear that does not seal the ring correctly.

It is a general object of the present invention to provide a lid assembly with a rotatable spout.

It is a further object of the present invention to provide a lid assembly that includes a check valve that generally regulates the flow of air into an associated container lumen.

[0011]

[0012]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention comprises a concave portion formed in a lid attached to a mouth of a container, and an opening provided in the concave portion and communicating with an inner cavity of the container. A rotary pouring spout having a through hole which is held in a recess thereof between a closed position and an open position around a boss, and which communicates with the opening when turning to the open position; and A check valve assembly comprising a vent provided in the recess at a position distant from the portion, and a check valve assembly attached to the vent. Walls surrounding the pores,
A valve chamber formed by a cover provided between the walls, an inflow port and / or a hole provided between the valve chamber and the lumen provided in the wall and / or the cover; The inserted flexible diaphragm valve, a valve seat provided on the inner side of the wall, where the peripheral edge of the diaphragm valve abuts, projects from the cover into the valve chamber, and the center of the diaphragm valve at the tip end thereof. A pressurizing projection configured so that the peripheral edge of the diaphragm valve is pressed against the valve seat by being pushed, and when the liquid in the container is discharged from the spout, A negative pressure is generated, and the peripheral pressure of the diaphragm valve is separated from the valve seat by the external pressure that has overwhelmed the negative pressure, and passes through the valve chamber through the vent hole of the concave portion until the negative pressure is eliminated. The container from the inlet and / or hole Outside air inlet passage is formed into the lumen, provide a pour spout lid of the insulating jug, characterized in that.

[0013]

BRIEF DESCRIPTION OF THE DRAWINGS The invention is capable of different embodiments and one embodiment is shown in the drawings and will be described in detail. It is to be understood that the specification is illustrative of the principles of the invention and that the invention is not limited to the embodiments described herein.

Referring to FIG. 1, a spout lid assembly 20 according to the present invention is shown attached to a container assembly 22 in use. The container assembly shown in FIGS. 1 to 3 is an assembly in which a thin-walled container 23 is held in a heat insulating jacket 24. The container 23 has a generally rigid, thin wall 25 that provides some flexibility or curvature. As will be described in greater detail below, the spout lid assembly according to the present invention prevents the wall from flexing inward and deforming the wall while pouring liquid, even when the wall flexes.

Referring to FIGS. 3 and 4, a spout lid assembly 20 is attached to the neck portion 26 of the container 23 to cover the container opening 28. Liquid in container assembly 2
2 and is poured through the lid assembly 20 as described in more detail below.

The container assembly 22 extends from the legs 32 to the upper end 34.
A heat insulation jacket 24 having a wall 30 extending upwardly toward. Hood 36 extends above upper end 34 and is held in engagement with wall 30 by fasteners 38. The hood 36 has a neck portion 40 and a head portion 42. The collar 44 is provided around an opening 46 from which the neck 26 extends. The base 48 of the lid assembly 20 further extends from the top of the container assembly 22.

Having briefly described the overall structure of the container assembly 22, the structure and function of the lid assembly 20 will now be described. The lid assembly 20 has a side wall 50, on the inner surface of which the side wall 50 is threaded with a screw 52, which is formed on the outer surface of the neck 26 and mates with a corresponding screw 54. Screws 52 and 54 are attached to lid 20
Is securely held. Packing 56 is retained in an annular channel 58 to form a seal between mouth 28 and lid 20.

The lid assembly 20 further includes a spout or rotary spout 60 that is automatically adjustable. The top of the lid 20 forms a partially dome-shaped head 62, the head comprising a spout recess 64 formed therein, the spout recess 64 having a flat portion 66 and a recessed portion 68; The flat portion 66 and the recessed portion 68 accommodate the spout 60 in the folded or closed position. The arcuate portion 70 of the spout 60 is held in the recessed portion 68 and the nozzle portion 72 overlaps the flat portion 66. Spout 6
Numeral 0 is rotatably held in the spout recess 64 by a boss 74 extending from the side wall 76 of the spout recess 64 and a saddle 78 formed on the corresponding surface of the arcuate portion 70.

Referring to FIGS. 1 and 4, the spout 60 is shown in a closed position. 2 and 5, the spout 60 is shown in an open position. As can be seen, the spout 60 includes a through lumen 80 extending from the arcuate portion 70 through the nozzle portion 72. Spout opening 82 extends through wall 84 of base 48 of spout recess 64. As shown in FIGS. 4, 5, 6 and 9, the spout opening 82 is disposed at an angle (shown as an angle 86 relative to a horizontal plane indicated by reference numeral 88). In the closed position, the arcuate outer surface 90 of the arcuate portion 70 is located above the spout opening 82 and the packing 92 located outside the spout opening 82.
Forms a seal between the corresponding base and the spout 60. When the spout 60 is rotated to the open position (FIG. 2,
5, 6 and 7), the inlet 94 of the through lumen 80 is aligned with the spout opening 82.

With further reference to the enlarged views shown in FIGS. 6 and 7, a chord or surface 96 is disposed around the entrance 94 and includes the chord 96 and the arcuate outer surface 9 of the arcuate portion 70.
An obtuse angle represented by an angle 98 is formed between 0, and the arc-shaped portion is shown in FIG. 6 as being rotated toward the open position.

The chord 96 is an improvement over the prior art structure shown in phantom in FIG. As can be understood by comparing the present invention with the prior art dashed line illustration, the prior art forms an acute angle (as indicated by angle 100) between the arcuate outer surfaces 90, the acute angle 100 being the entrance angle. A sharp edge 102 was created at 94, which often abraded the packing 92. In contrast, in the present invention, the inlet 94
A stringer 96 is used to reduce the sharpness and sharpness of the packing 92, thereby reducing the wear of the packing 92 and the packing 92.
To extend the life of the lid assembly 20 and provide a longer life that can be used without water leakage from the lid assembly 20. When the spout 60 is rotated to the open position, the packing 92 is generally slightly deformed by the arcuate portion 70, which generally abuts the angled edge formed by the obtuse angle 98.

As also shown in FIGS. 6 and 7, the packing 92 is mounted in a retaining ring groove 104, which is formed in the wall 84 at a location radially away from the spout opening 82. The holding slope 106 extends between the holding ring groove 104 and the spout opening 82. The retaining ring ramp 106 is asymmetric and includes a lower edge 108 that is narrower than the upper edge 110 such that the retaining ramp 106 and its asymmetric structure correspond to the outer surface 90 of the arcuate portion 70 and move from a closed position to an open position. The smooth movement of the spout 60 is further promoted.

Referring to FIGS. 1 to 5 and FIG.
The lid assembly 20 of the present invention has an upper outer surface that is generally formed with a continuous and matching radius. 4, the outer radius of the cover surface 114 (as shown as radius 112) generally coincides with the arcuate surface forming the partially dome-shaped head 62. Making the surface. The outer radius (shown as radius 116) of the partially dome-shaped head 62 is generally equal to the radius 112 of the cover surface 114. Arc-shaped part 70
The rear end 118 of the spout 60 extending from
The entrance 94 of the through lumen 80 is concealed. A gap 120 is formed between the recess 68 and the arcuate portion 70, through which the rear end 118 moves. When the spout 60 is pivoted, the rear end 118 abuts a bulge 122 formed in the recessed portion 68 to prevent further rotation of the spout 60. The rear end 118 prevents rotation of the spout 60 so that the spout does not come off the base 48.

In order to move the spout 60 from the closed position to the open position, the base 48 and the spout 60 have gripping structures 123.
Is provided. The base 48 has a recessed surface 124 exposing a pair of grips on a side surface of the nozzle portion 72 opposite the partially dome-shaped head 62. The user can pinch the side of the nozzle portion 72 by inserting his thumb and index finger into the corresponding portion formed by the nozzle portion 72 and the surface 124 exposing the gripper. Further, the nozzle portion 7
Notches are provided on the two opposing sides to make it easier to grip the spout 60. If the user wishes to open the lid assembly 20, it can be inserted into the exposed portion 124 to grasp the notch 126 and lift the spout 60.

A further feature of the present invention is a non-return valve assembly 128 located at the base 48, the non-return valve assembly 128 being provided with a lumen 2 formed in the container wall 25 from ambient atmosphere.
9 provides a regulated introduction of air. By introducing air into lumen 29, check valve assembly 128 provides a regulated balance of lumen 29 pressure. This is a significant improvement over the prior art, as prior art containers are either prone to either crush containers made of flexible walls or cause pulsating liquid to pour out of the container. . The non-return valve assembly 128 of the present invention provides a spout 60 from the container due to the introduction of balanced air from the valve 128 rather than from the nozzle 72 and the reduced vacuum force on the container wall 25 due to the balancing. The liquid passing through is generally a continuous stream.

The check valve assembly 128 includes a vent 146 passing through the wall 84 of the recess 64, a wall 134 surrounding the vent 146, and the cover 13 extending between the walls 134.
6 and the valve chamber 140
And a diaphragm valve 138 held therein. Valve room 1
40 is divided into an outer chamber 142 and an inner chamber 144. A vent 146 through the wall 84 of the recess 64 provides communication between the outer chamber 142 and the surrounding atmosphere. Diaphragm valve 138
On the other side, the hole 1 in the front wall 150 of the cover 136 is
48 and the inlet 152 of the wall 134 of the housing 132
And the interior chamber 44 is provided.

11 to 13, the valve seat 154 to which the peripheral edge of the diaphragm valve 138 abuts is attached to the wall 1.
34, while the pressurizing projection 1 in the form of a pillar
56 is protruded from the inner surface of the cover 136, the tip of which abuts against the center of the diaphragm valve 138 to apply a pressure to the diaphragm valve 138, and the applied pressure deforms the diaphragm valve 138, causing the diaphragm valve 138 to deform. The periphery of 138 is pressed against valve seat 154. The length of the pressurized projection 156 and the desired degree of deformation of the diaphragm valve 138 are selected to accommodate a change in any given situation to provide a predetermined sealing force between the diaphragm valve 138 and the valve seat 154. . In other words, the negative pressure generated in the lumen 29 is
It is necessary to lift the diaphragm valve 138 from the valve seat 154 by reaching a level of force that is only slightly greater than the applied pressure on the diaphragm valve 138 at 54. Once lifted, the diaphragm valve 13 moves the outer chamber 142 to the inner chamber 144,
Further, air can pass through the lumen 29.

The inlet 152 has a gap 158 formed in the wall 134 and a leg 16 extending from the periphery of the cover 136.
4 and is formed by an overlap gap. Annular rib 1
60 is provided around the cover 136, and the wall 1 of the housing 132 is
34 and a groove 162 formed in cooperation therewith. Although many holes 148 are formed in the wall surface 150 of the cover 136, air mainly flows in from the inlet 152. Inlet 152
Is located in close proximity to the valve seat 154 and thus forms a short flow path through the check valve assembly 128. The holes 148 allow the atmosphere in the lumen 29 or the water in the lumen 29 to act on the inner surface of the diaphragm valve 138. In this case, the air is drawn from the outer chamber 142 through the inflow port 152, so that the suction force decreases. When the air pressure drops below the sealing force of the diaphragm valve to the valve seat 54, the check valve closes.

To further regulate the flow of air and the deformation of the diaphragm valve 138, a tapered rib 166 and a stop wall 168 are provided on the cover 136. The rib 166 is for the diaphragm valve 1
This prevents excessive deformation and wrinkling of the 38 and promotes uniform deformation of the diaphragm valve. The stop wall 168 is the valve seat 15
4. Limit the range of deformation of the diaphragm valve when floating from 4.

While the preferred embodiment of the invention has been illustrated and described, various modifications and equivalents may be made by those skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims. It is contemplated that The present invention is not intended to be limited by the foregoing disclosure.

[Brief description of the drawings]

1 is a top left perspective view of a container assembly including a spout lid assembly of the present invention;

2 is a top perspective view of the container assembly shown in FIG. 1 with the rotary spout pivoted away from the base of the spout lid assembly to pour liquid from the nozzle portion;

FIG. 3 is an exploded perspective view showing the spout lid assembly of the present invention disassembled from a thin container removed from the insulation jacket.

FIG. 4-4-4 of the spout lid assembly shown in FIG. 1;
Partially enlarged longitudinal side view along the line,

FIG. 5 is a partial view along line 5-5 of the spout lid assembly shown in FIG. 2 with the rotary spout rotated to align the base spout with the spout through-hole. Enlarged vertical side view,

FIG. 6 shows a chord edge located around the entrance of the through hole of the rotary spout and a part of the arcuate rotary spout showing the rotation of the rotary spout from the closed position to the pouring position. Partially enlarged longitudinal side view,

7 is a partial cross-sectional view shown in FIG. 5 in a state where a rotary spout is set to a pouring position.

FIG. 8 is a plan view of the base of the spout lid assembly with the rotary spout removed;

FIG. 9 is a bottom view of the spout lid assembly;

FIG. 10 is a partially enlarged exploded perspective view of a spout lid check valve assembly showing a housing wall and a cover portion attached thereto for holding a flexible diaphragm valve.

FIG. 11 is a partially enlarged longitudinal side view of a check valve assembly similar to the check valve assembly shown in FIG. 4, sealing a valve that prevents water leakage from the container lumen.

FIG. 12 is a partially enlarged longitudinal sectional side view of the check valve assembly shown in FIG. 5 with the diaphragm valve moving so that air flows inwardly into the container lumen;

FIG. 13 is an enlarged plan view showing an internal structure of a cover of the check valve assembly.

[Explanation of symbols]

 Reference Signs List 20 lid with spout 23 container 25 deformable side wall 29 container lumen 48 base (lid body) 60 rotatable spout 64 concave portion 70 arc-shaped ball portion 72 nozzle portion 74 boss 80 through hole 82 opening 92 sealing Packing 128 Check valve assembly 134 Wall 136 Cover 138 Diaphragm valve 140 Valve chamber 146 Vent 148 Hole 154 Valve seat 156 Pressurizing protrusion

────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Thomas J. Merck United States 60622 Illinois Chicago West Evergreen Avenue 860 (56) References JP-A-58-90051 (JP, A) Jpn. U) Actually open sho 59-182223 (JP, U) (58) Field surveyed (Int. Cl. ⁶ , DB name) B65D 39/00-55/16

Claims (1)

(57) [Claims] 1. A lid (2) attached to the mouth of a container (23).
0) and a cavity (2) of the container (23) provided in the recess (64).
9) and an opening (82) communicating with the opening (82), and a concave portion (64) of the boss (74) for pivotally holding the boss (74) between a closed position and an open position. A rotary spout (60) having a through hole (80) communicating with the opening (82), a ventilation hole (146) provided in the recess (64) at a position away from the opening (82), A check valve assembly (128) attached to the vent (146); and the check valve assembly (128) of the lid (20) comprising:
The concave portion (64) having the vent hole (146) as a center,
A valve chamber (140) formed by a wall (134) surrounding the ventilation hole (146) and a cover (136) erected between the walls, and provided on the wall (134) and / or the cover (136). An inlet (152) and / or a hole (148) communicating between the lumen (29) and the valve chamber (140); and a flexible diaphragm valve (138) inserted into the valve chamber (140). ), A valve seat (154) with which a peripheral portion of the diaphragm valve (138) provided inside the wall (134) abuts, and protrudes from the cover (136) into the valve chamber (140), and a tip end thereof. The central part of the diaphragm valve (138) is pushed by the part, whereby the diaphragm valve (13) is pressed.
And a pressurizing projection (156) whose peripheral edge is pressed against the valve seat (154), and discharges the liquid in the container (23) from the spout (60). At this time, a negative pressure is generated in the container (23), and the outside air pressure overcoming the negative pressure causes the diaphragm valve (138).
Until the peripheral edge of the recess separates from the valve seat (154) and the negative pressure is released.
6) through the valve chamber (140) to the inlet (15).
2) A lid with a spout of an insulated jug, wherein an outside air inflow passage is formed from the hole (148) and / or the hole (148) to the lumen (29) of the container (23).